Calidad bacteriológica y detección de Bacillus cereus toxigénicos en arroz blanco cocido expendido en el área metropolitana de la provincia de San José, Costa Rica

El gran consumo de arroz a nivel mundial es uno de los factores que favorece su implicación en brotes de origen alimentario y de uno de los patógenos más importantes ligado a este producto como el Bacillus cereus El objetivo del presente trabajo fue evaluar la calidad microbiológica de 50 muestras de arroz blanco cocido expendido en restaurantes de área Metropolitana de San José Costa Rica, incluyendo la determinación del recuento total aerobio mesófilo, Número Más Probable de coliformes totales, fecales y E. coli, B. cereus así como de detección de sus genes nheA, nheB, y nheC. Para el análisis bacteriológico se siguieron los procedimientos descritos en el Compendio de Métodos para el Examen Microbiológico de Alimentos y para la detección de los genes se utililzó un PCR múltiplex y la metodología descrita por Hansen et al., 2001. De las muestras analizadas 46% fueron positivas por coliformes totales, 34% por coliformes fecales, 16% por E. coli, 10% por B. cereus y un 8% por B. cereus toxigénico Lo anterior sugiere que el consumo de arroz blanco en restaurantes puede representar un riesgo para la salud pública y que es necesario implementar mejoras con el fin de brindarle al consumidor un producto inocuo y de mejor calidad.

Bacteriological quality and toxigenic Bacillus cereus detection in cooked white rice sold at the Metropolitan Area of San José, Costa Rica.. The wide use of rice is one of the factors that favors its implication in food borne diseases, and one of the most important pathogens associated to it is Bacillus cereus. The aim of this work was to evaluate the microbiological quality of 50 samples of white cooked rice sold in restaurants at the Metropolitan Area of San José, Costa Rica, including the determination of the total aerobic plate count, the Most Probable Number of total and fecal coliforms and Escherichia coli. MPN of Bacillus cereus and the detection of nheA, nheB and nHeC genes, associated to its toxicity, was also performed. Procedures described in the Compendium of Methods for the Microbiological Examination of Foods were followed for the bacteriological analysis, multiplex PCR was used for the detection of genes following the methodology described by Hansen et al, 2001. 46% of the samples analysed were positive for total coliforms, 34% for fecal coliforms, 16% for E. coli and 10% for B. cereus, being 8% toxigenic. These facts suggest that white cooked rice may represent a risk for Pubic Health and that improvements shall be performed in order to offer a safe and high quality product to consumers.

[Bacteriological quality and toxigenic Bacillus cereus detection in cooked white rice sold at the metropolitan area of San José, Costa Rica]. / Calidad bacteriológica y detección de Bacillus cereus toxigénicos en arroz blanco cocido expendido en el área metropolitana de la provincia de San José, Costa Rica.

The wide use of rice is one of the factors that favors its implication in food borne diseases, and one of the most important pathogens associated to it is Bacillus cereus. The aim of this work was to evaluate the microbiological quality of 50 samples of white cooked rice sold in restaurants at the Metropolitan Area of San José, Costa Rica, including the determination of the total aerobic plate count, the Most Probable Number of total and fecal coliforms and Escherichia coli. MPN of Bacillus cereus and the detection of nheA, nheB and nHeC genes, associated to its toxicity, was also performed. Procedures described in the Compendium of Methods for the Microbiological Examination of Foods were followed for the bacteriological analysis, multiplex PCR was used for the detection of genes following the methodology described by Hansen et al, 2001. 46% of the samples analysed were positive for total coliforms, 34% for fecal coliforms, 16% for E. coli and 10% for B. cereus, being 8% toxigenic. These facts suggest that white cooked rice may represent a risk for Pubic Health and that improvements shall be performed in order to offer a safe and high quality product to consumers.

[Role of mycolactone in the nerve damage of Buruli ulcer (Mycobacterium ulcerans infection)].

Buruli ulcer is a skin disease caused by Mycobacterium ulcerans (M. ulcerans). In this review, we introduce our recent studies and other important works. Lesions of Buruli ulcer are usually painless, despite the extensive tissue necrosis. We have reported that mice inoculated with M ulcerans show nerve degeneration and absence of pain, but the mechanism evoking the nerve damage have not been clarified. In order to define whether mycolactone, a toxic lipid produced by M. ulcerans, can induce nerve damages, we have injected mycolactone A/B to BALB/c mouse footpads. Mycolactone induced footpad swelling, and sensory test showed hyperesthesia on day 7 and 14, recovery on day 21, and hypoesthesia on days 28 and 42. Histologically, nerve bundles showed hemorrhage, neutrophilic infiltration, and loss of Schwann cell nuclei on days 7 and 14. Semithin section studies revealed vacuolar change of Schwann cells started on day 14, which subsided by day 42, but myelinated fiber density remained low. This study suggests that mycolactone directly damages nerves and is responsible for the absence of pain characteristic of Buruli ulcer. In the human lesions, presence of neuritis is reported (Rondini S, 2006), and murine studies showed "autoamputation" (Addo P, 2005). In order to prevent the serious deformities evoked by Buruli ulcer, further studies are necessary.

Pathogenetic mechanisms of the intracellular parasite Mycobacterium ulcerans leading to Buruli ulcer.

The necrotising skin infection Buruli ulcer is at present the third most common human mycobacteriosis worldwide, after tuberculosis and leprosy. Buruli ulcer is an emergent disease that is predominantly found in humid tropical regions. There is no vaccine against Buruli ulcer and its treatment is difficult. In addition to the huge social effect, Buruli ulcer is of great scientific interest because of the unique characteristics of its causative organism, Mycobacterium ulcerans. This pathogen is genetically very close to the typical intracellular parasites Mycobacterium marinum and Mycobacterium tuberculosis. We review data supporting the interpretation that M ulcerans has the essential hallmarks of an intracellular parasite, producing infections associated with immunologically relevant inflammatory responses, cell-mediated immunity, and delayed-type hypersensitivity. This interpretation judges that whereas M ulcerans behaves like the other pathogenic mycobacteria, it represents an extreme in the biodiversity of this family of pathogens because of its higher cytotoxicity due to the secretion of the exotoxin mycolactone. The acceptance of the interpretation that Buruli ulcer is caused by an intracellular parasite has relevant prophylactic and therapeutic implications, rather than representing the mere attribution of a label with academic interest, because it prompts the development of vaccines that boost cell-mediated immunity and the use of chemotherapeutic protocols that include intracellularly active antibiotics.

First cultivation and characterization of Mycobacterium ulcerans from the environment.

BACKGROUND: Mycobacterium ulcerans disease, or Buruli ulcer (BU), is an indolent, necrotizing infection of skin, subcutaneous tissue and, occasionally, bones. It is the third most common human mycobacteriosis worldwide, after tuberculosis and leprosy. There is evidence that M. ulcerans is an environmental pathogen transmitted to humans from aquatic niches; however, well-characterized pure cultures of M. ulcerans from the environment have never been reported. Here we present details of the isolation and characterization of an M. ulcerans strain (00-1441) obtained from an aquatic Hemiptera (common name Water Strider, Gerris sp.) from Benin. METHODOLOGY/PRINCIPAL FINDINGS: One culture from a homogenate of a Gerris sp. in BACTEC became positive for IS2404, an insertion sequence with more than 200 copies in M. ulcerans. A pure culture of M. ulcerans 00-1441 was obtained on Löwenstein-Jensen medium after inoculation of BACTEC culture in mouse footpads followed by two other mouse footpad passages. The phenotypic characteristics of 00-1441 were identical to those of African M. ulcerans, including production of mycolactone A/B. The nucleotide sequence of the 5' end of 16S rRNA gene of 00-1441 was 100% identical to M. ulcerans and M. marinum, and the sequence of the 3' end was identical to that of the African type except for a single nucleotide substitution at position 1317. This mutation in M. ulcerans was recently discovered in BU patients living in the same geographic area. Various genotyping methods confirmed that strain 00-1441 has a profile identical to that of the predominant African type. Strain 00-1441 produced severe progressive infection and disease in mouse footpads with involvement of bone. CONCLUSION: Strain 00-1441 represents the first genetically and phenotypically identified strain of M. ulcerans isolated in pure culture from the environment. This isolation supports the concept that the agent of BU is a human pathogen with an environmental niche.

First reported case of turtle deaths during a toxic Microcystis spp. bloom in Lake Oubeira, Algeria.

Microcystins analysis was conducted in field cyanobacterial bloom samples and dead terrapin tissues from Lake Oubeira (Algeria) with an aim of studying the cause of the mortality of the freshwater terrapin species Emys orbicularis and Mauremys leprosa during October 2005. The deaths of these two terrapin species were observed during a bloom of Microcystis spp. The total microcystin content per phytoplankton biomass evaluated with the methanol extraction-protein phosphatase methodology was 1.12 mg MCYST-LR equivalents/g dried bloom material. The analysis of this bloom extract by the LC/MS technique demonstrated the presence of three microcystin variants: microcystin-LR (MCYST-LR), microcystin-YR (MCYST-YR), and microcystin-RR (MCYST-RR). Microcystins were also detected in fresh carcasses of terrapin liver, viscera and muscle tissues using the GC/MS after Lemieux oxidation method and the PP2A inhibition assay. The high level of microcystins detected using the Lemieux oxidation-GC/MS method in the liver tissue (1192.8 microg MCYST-LR equivalent/g dw) and in the viscera tissue (37.19 microg MCYST-LR equivalent/g dw) of the species M. leprosa and E. orbicularis, respectively, and the liver crumbling observed after the necropsy examination of the fresh carcass of M. leprosa support the possibility that cyanobacterial microcystins contribute to the turtle mortalities.

[Genetically determined human susceptibility to selected infectious diseases]. / Genetyczne uwarunkowana wrazliwosc na wybrane choroby zakazne u czlowieka.

As predictions show infectious diseases were, are and will be, responsible for a significant percentage (more than 12% in the year 2030) of deaths worldwide. Infectious diseases are, according to J.B.S. Haldane's theory, the major agent determining natural selection, as they lead to elimination of more susceptible people and only leave to survive these, who are more resistant. It has been revealed that susceptibility to pathogens varies among ethnic groups. Explanation of this phenomenon can be found in the human genome. Standard genetic analysis led to identification of several gene variants which modulate susceptibility to particular infectious disease as well as its progression. HLA genes encoding major histocompatibility complex are one of the most interesting ones as they are reported to influence the susceptibility to a wide range of pathogens. It is also proved that in several cases many other genes take part in modulation of clinical outcome of the diseases. Alleles conferring partial or total protection against disease development have already been identified. This review presents results of selected research concerning genetically determined susceptibility to malaria, cholera, leprosy and HIV.

Glycoconjugates: roles in neural diseases caused by exogenous pathogens.

Numerous reports indicate that lipid or protein associated carbohydrates are essential for infection of cells by various viruses, bacteria, or bacterial toxins, some of which affect the nervous system. Examples of such pathogens include tetanus and botulinum neurotoxin, Shiga and Shiga-like toxins, Borrelia burgdorferi, Mycobacterium leprae, and human immunodeficiency virus. This review discusses evidence indicating that carbohydrates are essential for these pathogens to induce their deleterious effects, the putative function of the carbohydrates, and how this knowledge might be used to combat the effects of the pathogen.

Systemic suppression of interferon-gamma responses in Buruli ulcer patients resolves after surgical excision of the lesions caused by the extracellular pathogen Mycobacterium ulcerans.

Buruli ulcer (BU), caused by Mycobacterium ulcerans, is the third most common mycobacterial infection in immunocompetent humans besides tuberculosis and leprosy. We have compared by ex vivo enzyme-linked immunospot analysis interferon-gamma (IFN-gamma) responses in peripheral blood mononuclear cells (PBMC) from BU patients, household contacts, and individuals living in an adjacent M. ulcerans nonendemic region. PBMC were stimulated with purified protein derivative (PPD) and nonmycobacterial antigens such as reconstituted influenza virus particles and isopentenyl-pyrophosphate. With all three antigens, the number of IFN-gamma spot-forming units was reduced significantly in BU patients compared with the controls from a nonendemic area. This demonstrates for the first time that M. ulcerans infection-associated systemic reduction in IFN-gamma responses is not confined to stimulation with live or dead mycobacteria and their products but extends to other antigens. Interleukin (IL)-12 secretion by PPD-stimulated PBMC was not reduced in BU patients, indicating that reduction in IFN-gamma responses was not caused by diminished IL-12 production. Several months after surgical excision of BU lesions, IFN-gamma responses of BU patients against all antigens used for stimulation recovered significantly, indicating that the measured systemic immunosuppression was not the consequence of a genetic defect in T cell function predisposing for BU but is rather related to the presence of M. ulcerans bacteria.

Colonization of the salivary glands of Naucoris cimicoides by Mycobacterium ulcerans requires host plasmatocytes and a macrolide toxin, mycolactone.

Mycobacterium ulcerans was first identified as the causative agent of Buruli ulcer; this cutaneous tissue-destructive process represents the third most important mycobacterial disease in humans after tuberculosis and leprosy. More recently other life traits were documented. M. ulcerans is mainly detected in humid tropical zones as part of a complex ecosystem comprising algae, aquatic insect predators of the genus Naucoris, and very likely their vegetarian preys. Coelomic plasmatocytes could be the first cells of Naucoris cimicoides to be involved in the infection process, acting as shuttle cells that deliver M. ulcerans to the salivary glands as suggested by both in vitro and in vivo approaches. Furthermore, a key element for the early and long-term establishment of M. ulcerans in Naucoridae is demonstrated by the fact that only mycolactone toxin-producing M. ulcerans isolates are able to invade the salivary glands, a site where they proliferate. Later, the raptorial legs of Naucoris are covered by M. ulcerans-containing material that displays features of biofilms.

Effect of listeriolysin O-loaded erythrocytes on Mycobacterium avium replication within macrophages.

OBJECTIVE: To evaluate the efficacy of erythrocytes loaded with the haemolytic toxin listeriolysin O against Mycobacterium avium replication within human macrophages. METHODS: Recombinant listeriolysin O was loaded in human erythrocytes by a procedure of hypotonic dialysis and isotonic resealing. Loaded erythrocytes were modified to allow them to be recognized and taken up by human macrophages infected with M. avium. The antimycobacterial activity of the erythrocytes loaded with listeriolysin O was evaluated by supernatant and intracellular cfu counts on days 4 and 7 post-erythrocyte administration. RESULTS: Recombinant listeriolysin O was encapsulated in human erythrocytes to reach final concentrations ranging from 1 to 4 ng/mL of erythrocytes. Erythrocytes loaded with increasing quantities of recombinant protein were able to reduce (at most by 50%) M. avium replication in a dose-dependent fashion when administered to infected macrophages. CONCLUSIONS: Erythrocytes loaded with listeriolysin O are effective against M. avium replication within macrophages. We are confident that the strategy presented could be useful against mycobacteria other than M. avium (such as Mycobacterium tuberculosis and Mycobacterium leprae) by itself or as part of an antimycobacterial treatment.

Subtractive hybridization reveals a type I polyketide synthase locus specific to Mycobacterium ulcerans.

Mycobacterium ulcerans causes Buruli ulcer, the third most prevalent mycobacterial infection of immunocompetent humans after tuberculosis and leprosy. Recent work has shown that the production by M. ulcerans of mycolactone, a novel polyketide, may partly explain the pathogenesis of Buruli ulcer. To search for the genetic basis of virulence in M. ulcerans, we took advantage of the close genetic relationship between M. ulcerans and Mycobacterium marinum by performing genomic suppressive subtractive hybridization of M. ulcerans with M. marinum. We identified several DNA fragments specific to M. ulcerans, in particular, a type I polyketide synthase locus with a highly repetitive modular arrangement. We postulate that this locus is responsible for the synthesis of mycolactone in M. ulcerans.

Characterization of Haemophilus ducreyi cdtA, cdtB, and cdtC mutants in in vitro and in vivo systems.

Haemophilus ducreyi expresses a soluble cytolethal distending toxin (CDT) that is encoded by the cdtABC gene cluster and can be detected in culture supernatant fluid by its ability to kill HeLa cells. The cdtA, cdtB, and cdtC genes of H. ducreyi were cloned independently into plasmid vectors, and their encoded proteins expressed singly or in various combinations in an Escherichia coli background. All three gene products had to be expressed in order for E. coli-derived culture supernatant fluids to demonstrate cytotoxicity for HeLa cells. Isogenic H. ducreyi cdtA and cdtB mutants were constructed and used in combination with the wild-type parent strain and a previously described H. ducreyi cdtC mutant (M. K. Stevens, J. L. Latimer, S. R. Lumbley, C. K. Ward, L. D. Cope, T. Lagergard, and E. J. Hansen, Infect. Immun. 67:3900-3908, 1999) to determine the relative contributions of the CdtA, CdtB, and CdtC proteins to CDT activity. Expression of CdtA, CdtB, and CdtC appeared necessary for H. ducreyi-derived culture supernatant fluid to exhibit cytotoxicity for HeLa cells. Whole-cell sonicates and periplasmic extracts from the cdtB and cdtC mutants had no effect on HeLa cells, whereas these same fractions from a cdtA mutant had a very modest cytotoxic effect on these same human cells. CdtA appeared to be primarily associated with the H. ducreyi cell envelope, whereas both CdtB and CdtC were present primarily in the soluble fraction from sonicated cells. Both the cdtA mutant and the cdtB mutant were found to be fully virulent in the temperature-dependent rabbit model for experimental chancroid.

Characterization of a Haemophilus ducreyi mutant deficient in expression of cytolethal distending toxin.

Haemophilus ducreyi expresses a soluble cytolethal distending toxin (CDT) that kills HeLa, HEp-2, and other human epithelial cells in vitro. H. ducreyi CDT activity is encoded by a three-gene cluster (cdtABC), and antibody to the cdtC gene product can neutralize CDT activity in vitro (L. D. Cope, S. R. Lumbley, J. L. Latimer, J. Klesney-Tait, M. K. Stevens, L. S. Johnson, M. Purven, R. S. Munson, Jr., T. Lagergard, J. D. Radolf, and E. J. Hansen, Proc. Natl. Acad. Sci. USA 94:4056-4061, 1997). Culture supernatant fluid from a recombinant Escherichia coli strain containing the H. ducreyi cdtABC gene cluster readily killed both HeLa cells and HaCaT keratinocytes and had a modest inhibitory effect on the growth of human foreskin fibroblasts. Insertional inactivation of the cdtC gene in this recombinant E. coli strain eliminated the ability of this strain to kill HeLa cells and HaCaT keratinocytes. This mutated H. ducreyi cdtABC gene cluster was used to construct an isogenic H. ducreyi cdtC mutant. Monoclonal antibodies against the H. ducreyi CdtA, CdtB, and CdtC proteins were used to characterize protein expression by this cdtC mutant. Culture supernatant fluid from this H. ducreyi cdtC mutant did not detectably affect any of the human cells used in this study. The presence of the wild-type H. ducreyi cdtC gene in trans in this H. ducreyi mutant restored its ability to express a CDT that killed both HeLa cells and HaCaT keratinocytes. The isogenic H. ducreyi cdtC mutant was shown to be as virulent as its wild-type parent strain in the temperature-dependent rabbit model for experimental chancroid. Lack of expression of the H. ducreyi CdtC protein also did not affect the ability of this H. ducreyi mutant to survive in the skin of rabbits.

Mycolactone: a polyketide toxin from Mycobacterium ulcerans required for virulence.

Mycobacterium ulcerans is the causative agent of Buruli ulcer, a severe human skin disease that occurs primarily in Africa and Australia. Infection with M. ulcerans results in persistent severe necrosis without an acute inflammatory response. The presence of histopathological changes distant from the site of infection suggested that pathogenesis might be toxin mediated. A polyketide-derived macrolide designated mycolactone was isolated that causes cytopathicity and cell cycle arrest in cultured L929 murine fibroblasts. Intradermal inoculation of purified toxin into guinea pigs produced a lesion similar to that of Buruli ulcer in humans. This toxin may represent one of a family of virulence factors associated with pathology in mycobacterial diseases such as leprosy and tuberculosis.

A toxic shock syndrome toxin-1 peptide that shows homology to mycobacterial heat shock protein 18 is presented as conventional antigen to T cells by multiple HLA-DR alleles.

We observe that PBMC from most adults (16 of 18 subjects tested) show a small but significant in vitro proliferative response to a 30-amino acid-long peptide (peptide 2, amino acids 34-63) derived from toxic shock syndrome toxin. By contrast, PBMC from newborn blood and thymocytes do not proliferate to this peptide, and furthermore, peptide 2 did not displace the binding of radiolabeled TSST-1 to MHC class II positive cells, nor did it induce IL-1 beta mRNA in monocytes, indicating that this peptide does not behave as a superantigen. Proliferation of PBMC to peptide 2 could be blocked by anti-HLA-DR, but not by anti-HLA-DP or DQ mAb, suggesting that HLA-DR molecules are the restriction elements for the recognition of this peptide by T cells. This premise was further confirmed by demonstrating that mouse L cells transfected with human HLA-DR, but not HLA-DP or DQ molecules, supported the proliferation of purified T cells to peptide 2. Studies with subjects of known HLA-DR types showed that all types tested are capable of responding to this peptide, PBMC from adults exposed to mycobacterial Ag showed significantly better proliferative response to peptide 2 than unexposed adults. Studies with truncations of this peptide suggest that a "core" region of eight amino acids that is conserved between low m.w. heat shock proteins and peptide 2 may be critical to T cell recognition of this peptide. The universal presentation of peptide 2 by HLA-DR molecules may contribute to the widespread natural immunity observed against toxic shock syndrome toxin.

Antibacterial monoclonal antibodies and the dawn of a new era in the control of infection.

Literature reports concerned with monoclonal antibodies against bacteria, or their toxins, which are pathogens for man and animals were surveyed. These antibodies have important potential uses in human and veterinary pathology and medicine. They are likely to become key elements in a fast progression toward a more complete understanding and control of infectious diseases and of toxin poisoning. A new area of bacteriology relevant to sanitary engineering is also being advanced with the help of antibacterial monoclonal antibodies. This area involves bacteria that produce the biofuel methane, along with other molecules of nutritional value, through a process which brings about the recycling of organic wastes and thereby limits or controls microbial contamination of soil and water.